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A self-powered accelerometer with over-range detection for vibration and shock based on triboelectric-electromagnetic mechanism

A self-powered accelerometer with over-range detection for vibration and shock based on triboelectric-electromagnetic mechanism
A self-powered accelerometer with over-range detection for vibration and shock based on triboelectric-electromagnetic mechanism

Accelerometers based on triboelectric nanogenerators (TENGs) have garnered significant interest in recent years. However, many of these devices lack a self-sustained power supply for autonomous wireless operations and a mechanism for over-range detection. Additionally, theoretical investigations on the sensitivity of TENG-based accelerometers are scarce. In this work, a novel self-powered accelerometer for vibration and shock integrating a freestanding triboelectric-layer-based TENG (FT-TENG), two contact-separation TENGs (CS-TENGs) and an electromagnetic generator (EMG) is proposed and then investigated through both numerical simulations and experimental demonstrations. The EMG is used for vibration energy harvesting, exhibiting an impressive power output of 4.11 mW under a vibration acceleration of 12 m/s2. The FT-TENG and the CS-TENGs work for acceleration sensing and over-range detection respectively. Under vibration, the sensitivity and measurement range are related to the frequency of excitation, and the proposed accelerometer has the maximum sensitivity (0.75 V s2/m) at its natural frequency. For shock events, the sensitivity of the accelerometer is dominated by the shock duration in a short-duration range, which is estimated to be 0.12 V s2/m under a shock duration of 0.03 s. This work not only contributes to the understanding of TENGs adopted for sensing but also creates potential applications of triboelectric and electromagnetic energy harvesting and provides a feasible design for autonomous wireless sensor nodes.

Self-powered accelerometer, Shock, Triboelectric-electromagnetic mechanism, Vibration
2211-2855
Zhao, Huai
aee13537-a4cc-4b7e-8e74-876eb2b4c0f2
Machado, Lucas Q.
333de39d-3cad-4576-99f0-6b5888cbda1e
Fu, Yiqiang
ddf357d9-a0d8-4360-be58-9bfb25a1a5d5
Ouyang, Huajiang
996c9b4a-69a8-4ae2-9a09-94b36e70c73f
Mo, Jiliang
a1993041-c606-4ed7-a368-2e3779244852
Zhao, Huai
aee13537-a4cc-4b7e-8e74-876eb2b4c0f2
Machado, Lucas Q.
333de39d-3cad-4576-99f0-6b5888cbda1e
Fu, Yiqiang
ddf357d9-a0d8-4360-be58-9bfb25a1a5d5
Ouyang, Huajiang
996c9b4a-69a8-4ae2-9a09-94b36e70c73f
Mo, Jiliang
a1993041-c606-4ed7-a368-2e3779244852

Zhao, Huai, Machado, Lucas Q., Fu, Yiqiang, Ouyang, Huajiang and Mo, Jiliang (2024) A self-powered accelerometer with over-range detection for vibration and shock based on triboelectric-electromagnetic mechanism. Nano Energy, 128 (A), [109788]. (doi:10.1016/j.nanoen.2024.109788).

Record type: Article

Abstract

Accelerometers based on triboelectric nanogenerators (TENGs) have garnered significant interest in recent years. However, many of these devices lack a self-sustained power supply for autonomous wireless operations and a mechanism for over-range detection. Additionally, theoretical investigations on the sensitivity of TENG-based accelerometers are scarce. In this work, a novel self-powered accelerometer for vibration and shock integrating a freestanding triboelectric-layer-based TENG (FT-TENG), two contact-separation TENGs (CS-TENGs) and an electromagnetic generator (EMG) is proposed and then investigated through both numerical simulations and experimental demonstrations. The EMG is used for vibration energy harvesting, exhibiting an impressive power output of 4.11 mW under a vibration acceleration of 12 m/s2. The FT-TENG and the CS-TENGs work for acceleration sensing and over-range detection respectively. Under vibration, the sensitivity and measurement range are related to the frequency of excitation, and the proposed accelerometer has the maximum sensitivity (0.75 V s2/m) at its natural frequency. For shock events, the sensitivity of the accelerometer is dominated by the shock duration in a short-duration range, which is estimated to be 0.12 V s2/m under a shock duration of 0.03 s. This work not only contributes to the understanding of TENGs adopted for sensing but also creates potential applications of triboelectric and electromagnetic energy harvesting and provides a feasible design for autonomous wireless sensor nodes.

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More information

Accepted/In Press date: 22 May 2024
e-pub ahead of print date: 24 June 2024
Published date: September 2024
Keywords: Self-powered accelerometer, Shock, Triboelectric-electromagnetic mechanism, Vibration

Identifiers

Local EPrints ID: 494878
URI: http://eprints.soton.ac.uk/id/eprint/494878
DOI: doi:10.1016/j.nanoen.2024.109788
ISSN: 2211-2855
PURE UUID: a64696ea-8ee7-45de-9aae-3f6f78a954b7
ORCID for Lucas Q. Machado: ORCID iD orcid.org/0000-0002-7397-9737

Catalogue record

Date deposited: 22 Oct 2024 16:31
Last modified: 23 Oct 2024 02:06

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Contributors

Author: Huai Zhao
Author: Lucas Q. Machado ORCID iD
Author: Yiqiang Fu
Author: Huajiang Ouyang
Author: Jiliang Mo

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